M
Marleen Voet
Researcher at Katholieke Universiteit Leuven
Publications - 31
Citations - 10899
Marleen Voet is an academic researcher from Katholieke Universiteit Leuven. The author has contributed to research in topics: Gene & ORFS. The author has an hindex of 13, co-authored 28 publications receiving 10329 citations.
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Journal ArticleDOI
Functional profiling of the Saccharomyces cerevisiae genome.
Guri Giaever,Angela M. Chu,Li Ni,Carla Connelly,Linda Riles,Steeve Veronneau,Sally Dow,Ankuta Lucau-Danila,Keith Anderson,Bruno André,Adam P. Arkin,Anna Astromoff,Mohamed El Bakkoury,Rhonda Bangham,Rocío Benito,Sophie Brachat,Stefano Campanaro,Matt Curtiss,Karen Davis,Adam M. Deutschbauer,K. D. Entian,Patrick Flaherty,Françoise Foury,David J. Garfinkel,Mark Gerstein,Deanna Gotte,Ulrich Güldener,Johannes H. Hegemann,Svenja Hempel,Zelek S. Herman,Daniel F. Jaramillo,Diane E. Kelly,Steven L. Kelly,Peter Kötter,Darlene LaBonte,David C. Lamb,Ning Lan,Hong Liang,Hong Liao,Lucy Y. Liu,Chuanyun Luo,Marc Lussier,Rong Mao,Patrice Menard,Siew Loon Ooi,José L. Revuelta,Christopher J. Roberts,Matthias Rose,Petra Ross-Macdonald,Bart Scherens,Greg Schimmack,Brenda Shafer,Daniel D. Shoemaker,Sharon Sookhai-Mahadeo,Reginald Storms,Jeffrey N. Strathern,Giorgio Valle,Marleen Voet,Guido Volckaert,Ching Yun Wang,Teresa R. Ward,Julie Wilhelmy,Elizabeth A. Winzeler,Yonghong Yang,Grace Yen,Elaine M. Youngman,Kexin Yu,Howard Bussey,Jef D. Boeke,Michael Snyder,Peter Philippsen,Ronald W. Davis,Mark Johnston +72 more
TL;DR: It is shown that previously known and new genes are necessary for optimal growth under six well-studied conditions: high salt, sorbitol, galactose, pH 8, minimal medium and nystatin treatment, and less than 7% of genes that exhibit a significant increase in messenger RNA expression are also required for optimal Growth in four of the tested conditions.
Journal ArticleDOI
Functional Characterization of the S. cerevisiae Genome by Gene Deletion and Parallel Analysis
Elizabeth A. Winzeler,Daniel D. Shoemaker,Anna Astromoff,Hong Liang,Keith Anderson,Bruno André,Rhonda Bangham,Rocío Benito,Jef D. Boeke,Howard Bussey,Angela M. Chu,Carla Connelly,Karen Davis,Fred S. Dietrich,Sally Dow,Mohamed El Bakkoury,Françoise Foury,Stephen H. Friend,Erik Gentalen,Guri Giaever,Johannes H. Hegemann,Ted Jones,Michael T. Laub,Hong Liao,Nicole Liebundguth,David J. Lockhart,Anca Lucau-Danila,Marc Lussier,Nasiha M'Rabet,Patrice Menard,Michael Mittmann,Chai Pai,Corinne Rebischung,José L. Revuelta,Linda Riles,Christopher J. Roberts,Petra Ross-Macdonald,Bart Scherens,Michael Snyder,Sharon Sookhai-Mahadeo,Reginald Storms,Steeve Veronneau,Marleen Voet,Guido Volckaert,Teresa R. Ward,Robert W. Wysocki,Grace Yen,Kexin Yu,Katja Zimmermann,Peter Philippsen,Mark Johnston,Ronald W. Davis +51 more
TL;DR: A total of 6925 Saccharomyces cerevisiae strains were constructed, by a high-throughput strategy, each with a precise deletion of one of 2026 ORFs (more than one-third of the ORFs in the genome), finding that 17 percent were essential for viability in rich medium.
Journal ArticleDOI
Analysis of 1.9 Mb of contiguous sequence from chromosome 4 of Arabidopsis thaliana
Michael W. Bevan,Ian Bancroft,E. Bent,K. Love,Howard M. Goodman,Caroline Dean,R. Bergkamp,Wim G. Dirkse,M. van Staveren,Willem J. Stiekema,L. Drost,P. Ridley,S.-A. Hudson,K. Patel,George Murphy,Pietro Piffanelli,H. Wedler,E. Wedler,R. Wambutt,T. Weitzenegger,Thomas Pohl,Nancy Terryn,J. Gielen,R. Villarroel,R. De Clerck,M. Van Montagu,A. Lecharny,S. Auborg,I. Gy,M. Kreis,N. Lao,Tony A. Kavanagh,S. Hempel,P. Kötter,K.-D. Entian,M. Rieger,M. Schaeffer,B. Funk,S. Mueller-Auer,M. Silvey,Richard James,A. Montfort,A. Pons,Pere Puigdomènech,A. Douka,E. Voukelatou,Dimitra Milioni,Polydefkis Hatzopoulos,E. Piravandi,B. Obermaier,H. Hilbert,A. Düsterhöft,T. Moores,Jonathan D. G. Jones,T. Eneva,Klaus Palme,Vladimir Benes,S. Rechman,W. Ansorge,R. Cooke,Claire Berger,Michel Delseny,Marleen Voet,Guido Volckaert,Hans-Werner Mewes,S. Klosterman,C. Schueller,N. Chalwatzis +67 more
TL;DR: Analysis of the sequence revealed an average gene density of one gene every 4.8 kilobases, and 54% of the predicted genes had significant similarity to known genes, and other interesting features were found, such as the sequence of a disease-resistance gene locus, the distribution of retroelements, and the frequent occurrence of clustered gene families.
Journal ArticleDOI
The complete DNA sequence of yeast chromosome III.
Stephen G. Oliver,Q. J. M. van der Aart,M. L. Agostoni-Carbone,Michel Aigle,Lilia Alberghina,Despina Alexandraki,G. Antoine,Rashida Anwar,Juan P. G. Ballesta,Paule Bénit,Gilbert Berben,Elisabetta Bergantino,N. Biteau,P. A. Bolle,Monique Bolotin-Fukuhara,Anthony G. A. Brown,Alistair J. P. Brown,J. M. Buhler,C. Carcano,Giovanna Carignani,Håkan Cederberg,R. Chanet,Roland Contreras,Marc Crouzet,B. Daignan-Fornier,E. Defoor,M. Delgado,Jan Demolder,C. Doira,Evelyne Dubois,Bernard Dujon,A. Düsterhöft,D. Erdmann,M. Esteban,F. Fabre,Cécile Fairhead,Gérard Faye,Horst Feldmann,Walter Fiers,M. C. Francingues-Gaillard,L. Franco,Laura Frontali,H. Fukuhara,L. J. Fuller,P. Galland,Manda E. Gent,D. Gigot,Véronique Gilliquet,Glansdorff Nn,André Goffeau,M. Grenson,P. Grisanti,Leslie A. Grivell,M. de Haan,M. Haasemann,D. Hatat,Janet Hoenicka,Johannes H. Hegemann,C. J. Herbert,François Hilger,Stefan Hohmann,Cornelis P. Hollenberg,K. Huse,F. Iborra,K. J. Indje,K. Isono,C. Jacq,M. Jacquet,C. M. James,J. C. Jauniaux,Y. Jia,Alberto Jiménez,A. Kelly,U. Kleinhans,P Kreisl,G. Lanfranchi,C Lewis,C. G. vanderLinden,G Lucchini,K Lutzenkirchen,M.J. Maat,L. Mallet,G. Mannhaupet,Enzo Martegani,A. Mathieu,C. T. C. Maurer,David J. McConnell,R. A. McKee,F. Messenguy,Hans-Werner Mewes,Francis Molemans,M. A. Montague,M. Muzi Falconi,L. Navas,Carol S. Newlon,D. Noone,C. Pallier,L. Panzeri,Bruce M. Pearson,J. Perea,Peter Philippsen,A. Pierard,Rudi J. Planta,Paolo Plevani,B. Poetsch,Fritz M. Pohl,B. Purnelle,M. Ramezani Rad,S. W. Rasmussen,A. Raynal,Miguel Remacha,P. Richterich,Aki Roberts,F. Rodriguez,E. Sanz,I. Schaaff-Gerstenschlager,Bart Scherens,Bertold Schweitzer,Y. Shu,J. Skala,Piotr P. Slonimski,F. Sor,C. Soustelle,R. Spiegelberg,Lubomira Stateva,H. Y. Steensma,S. Steiner,Agnès Thierry,George Thireos,Maria Tzermia,L. A. Urrestarazu,Giorgio Valle,I. Vetter,J. C. van Vliet-Reedijk,Marleen Voet,Guido Volckaert,P. Vreken,H. Wang,John R. Warmington,D. von Wettstein,Barton Luke Wicksteed,C. Wilson,H. Wurst,G. Xu,A. Yoshikawa,Friedrich K. Zimmermann,J. G. Sgouros +146 more
TL;DR: The entire DNA sequence of chromosome III of the yeast Saccharomyces cerevisiae has been determined, which is the first complete sequence analysis of an entire chromosome from any organism.
Journal ArticleDOI
Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana
Klaus F. X. Mayer,C. Schüller,R. Wambutt,George Murphy,Guido Volckaert,Thomas Pohl,A. Düsterhöft,Willem J. Stiekema,K.-D. Entian,Nancy Terryn,Barbara Harris,Wilhelm Ansorge,Petra Brandt,Leslie A. Grivell,Michael A. Rieger,M. Weichselgartner,V De Simone,B. Obermaier,R. Mache,Mario Müller,M. Kreis,Michel Delseny,Pere Puigdomènech,Martin D. Watson,T. Schmidtheini,B. Reichert,D. Portatelle,Manuel Pérez-Alonso,Marc Boutry,Ian Bancroft,P. Vos,Joerg Hoheisel,Wolfgang Zimmermann,H. Wedler,P. Ridley,S. A. Langham,B. McCullagh,L. Bilham,Johan Robben,J. Van der Schueren,B. Grymonprez,Y. J. Chuang,F. Vandenbussche,M. Braeken,I. Weltjens,Marleen Voet,I. Bastiaens,Rita Aert,E. Defoor,T. Weitzenegger,G. Bothe,U. Ramsperger,H. Hilbert,M. Braun,E. Holzer,A. Brandt,Sander Peters,M. van Staveren,Wim G. Dirkse,P. Mooijman,R. Klein Lankhorst,M. Rose,J. Hauf,P. Kötter,S. Berneiser,S. Hempel,M. Feldpausch,S. Lamberth,H. Van den Daele,A. De Keyser,C. Buysshaert,J. Gielen,R. Villarroel,R. De Clercq,M. Van Montagu,Jane Rogers,A. Cronin,Michael A. Quail,S. Bray-Allen,L. Clark,J. Doggett,S. Hall,M. Kay,Nicola Lennard,K. McLay,R. Mayes,A. Pettett,Marie-Adèle Rajandream,M. Lyne,Vladimir Benes,S. Rechmann,D. Borkova,H. Blöcker,M. Scharfe,M. Grimm,T. H. Löhnert,S. Dose,M. de Haan,A.C. Maarse,M. Schäfer,S Müller-Auer,C. Gabel,M. Fuchs,Berthold Fartmann,K. Granderath,D. Dauner,A. Herzl,Sindy Neumann,Anagnostis Argiriou,D. Vitale,Rosario Liguori,E. Piravandi,O. Massenet,F. Quigley,G. Clabauld,A. Mündlein,R. Felber,S. Schnabl,R. Hiller,W. Schmidt,A. Lecharny,S. Aubourg,F. Chefdor,R. Cooke,C. Berger,A. Montfort,Elena Casacuberta,T. Gibbons,N. Weber,Micheline Vandenbol,M. D. Bargues,Javier Terol,A. Torres,A Perez-Perez,Bénédicte Purnelle,E. Bent,S. Johnson,D. Tacon,T. Jesse,Leo Heijnen,S. Schwarz,Patrik Scholler,Steffen Heber,P. Francs,C. Bielke,Dmitrij Frishman,D. Haase,Kai Lemcke,Hans-Werner Mewes,S. Stocker,P. Zaccaria,Michael W. Bevan,Richard K. Wilson,M. de la Bastide,K. Habermann,L. Parnell,Neilay Dedhia,L. Gnoj,K. Schutz,E. Huang,Lori Spiegel,M. Sehkon,Joseph A. Murray,P. Sheet,Matt Cordes,J. Abu-Threideh,T. Stoneking,Joelle Kalicki,Tina Graves,G. Harmon,Jennifer Edwards,P. Latreille,Laura Courtney,J. Cloud,A. Abbott,Kelsi Scott,David W. Johnson,Patrick Minx,David Bentley,Bob Fulton,N. Miller,T. Greco,K. Kemp,Jason B. Kramer,Lucinda Fulton,Elaine R. Mardis,Mike Dante,Kymberlie H. Pepin,LaDeana W. Hillier,Joanne O. Nelson,John Spieth,E. Ryan,S. Andrews,C. Geisel,Dan Layman,Hui Du,Johar Ali,A. Berghoff,K. Jones,K. Drone,M. Cotton,Corinne E. Joshu,B. Antonoiu,M. Zidanic,Cindy Strong,H. Sun,B. Lamar,C. Yordan,P. Ma,P. Ma,J. Zhong,J. Zhong,R. Preston,D. Vil,M. Shekher,A. Matero,R. Shah,I'k. Swaby,A. O'Shaughnessy,M. Rodriguez,J. Hoffman,S. Till,S. Granat,Nadim Shohdy,A. Hasegawa,Abdul Hameed,M. Lodhi,A. Johnson,A. Johnson,Ellson Y. Chen,Ellson Y. Chen,Marco A. Marra,Robert A. Martienssen,W. R. McCombie +233 more
TL;DR: Analysis of 17.38 megabases of unique sequence, representing about 17% of the Arabidopsis genome, reveals 3,744 protein coding genes, 81 transfer RNAs and numerous repeat elements.